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Numerical study of chemical reaction and heat transfer of MHD slip flow with Joule heating and Soret–Dufour effect over an exponentially stretching sheet

Deepak Kumar, Sharad Sinha, Anil Kumar Sharma, Priyanka Agrawal, Praveen Kumar Dadheech

2021Heat Transfer20 citationsDOI

Abstract

Abstract A study of Soret–Dufour effects along with chemical reaction, viscous dissipation combining on MHD Joule heating for viscous incompressible flow is presented. It is assumed that fluid is flowing past an angled stretching sheet saturated in porous means. The slip conditions of velocity, concentration, and temperature are accounted for at the boundary. The mathematical expression of the problem contains highly nonlinear interconnected partial differential equations. To convert governing equations into ordinary differential equations, appropriate similarity transformations were utilized. These differential equations with boundary constraints are resolved by homotopy analysis method. Expression for velocity, concentration, and temperature are derived in the form of series. Effects of numerous physical parameters, for example, Schmidt number, Soret number, buoyancy ratio parameter, slip parameter, and so forth, on various flow characteristics are presented through graphs. Numerous values of velocity, concentration, and temperature gradient are tabulated against different parameters. Results show that the fluid velocity increases by enhancing the Soret number, Dufour number, or permeability parameter. The fluid's concentration rises as the Soret number increases, while it falls as the Dufour number, chemical reaction parameter, or permeability parameter increases.

Topics & Concepts

Joule heatingMagnetohydrodynamicsMechanicsSchmidt numberThermophoresisPartial differential equationThermodynamicsHomotopy analysis methodBuoyancyBoundary value problemSlip (aerodynamics)Heat transferMaterials scienceParasitic dragSherwood numberBoundary layerChemistryNusselt numberPhysicsNonlinear systemNanofluidPrandtl numberReynolds numberMagnetic fieldComposite materialQuantum mechanicsTurbulenceNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows
Numerical study of chemical reaction and heat transfer of MHD slip flow with Joule heating and Soret–Dufour effect over an exponentially stretching sheet | Litcius